x25-e

HP Envy eclipses the Apple MacBook

The Hewlett-Packard Envy 13 offers an excellent example of what a cutting-edge ultraportable should be--and it moves past the Apple MacBook Air in some important respects, despite its overly ambitious price tag.

First, let me say that I use a MacBook Air as my main machine and am well aware of its merits. That said, it is beginning to look a little long in the tooth when juxtaposed with the Envy 13--which, like the Air, offers an aluminum chassis. I will also draw comparisons with 13-inch MacBook Pro since the Envy seems to fall somewhere between this and the Air.

(See CNET review of Envy 13.)

Let's start with the Envy's engine. The Envy offers a ULV (ultra-low-voltage) processor option that you won't find in any Apple MacBook: a 1.6GHz Core 2 Duo SU9600 that draws a mere 10 watts. This is Intel's highest-performance 10-watt dual-core processor--a crucial power-saving and heat-reducing option for ultra-thin designs like the Envy or MacBook Air. The more widely used SL9600 (which many reviewers mistakenly refer to as ultra low voltage) draws 17 watts.

But HP charges a premium for this processor, too. Selecting the power-sipping SU9600 adds $200 to the cost of the Envy. But at least it's an option.

Next, graphics. The Envy has switchable graphics. What does this get you? More battery life. When plugged in, the Envy uses the "discrete" (standalone) ATI Mobility Radeon HD 4330 graphics processor. When unplugged it switches to the less-power-hungry--and lower performance--Intel integrated graphics.

The truth be told, most of the time users don't need discrete graphics. But it can be a godsend in Windows 7, for example, when doing transcoding--which converts, for instance, a movie on a PC to a format that makes it viewable on an iPhone or iPod. And, of course, discrete graphics is needed for playing demanding games.

The ATI 4330 graphics seem to be more capable than… Read more

Intel boosts speed, cuts prices of solid-state drives

Intel is introducing new solid-state drives with increased performance as these devices find a more welcome home in Windows 7.

Intel said Tuesday it is moving to a more advanced 34-nanometer manufacturing process for its X series of solid-state drives (SSDs). To date, Intel has built drives on a 50-nanometer process. The more advanced process allows for higher data densities, enabling Intel to pack more data onto the same number of flash chips and reduce cost.

Solid-state drives typically offer better performance--in some cases, dramatically better performance--than hard disk drives. But SSDs cost more per gigabyte than hard drives, limiting their use to performance-sensitive applications such as high-end laptops, gaming PCs, and servers.

The new price for the 80GB version of the X25-M drive is $225 for quantities up to 1,000 units, a 60 percent reduction from the introduction price of $595 a year ago, Intel said. The 160GB version of the Intel X25-M drive is now $440, down from $945 at introduction.

However, the actual price drop in the market will be lower, Troy Winslow, marketing manager for the NAND Products Group at Intel, said in a phone interview. Intel had already announced an interim price reduction in January, below the original $595 and $945 price tags, he said.

"In the marketplace it will be around a $100 drop on the 80GB drive and almost a $200 drop on the 160GB drive," he said. The X25-M comes in a standard 2.5-inch form factor, which is the size of most hard drives used in laptops.

Winslow also addressed rumors circulating on Monday about higher-capacity drives. Intel will not introduce a 320GB SSD this year, he said. "What we decided to do is split 34-nanometer into a two-step process," he said. The first step will be to cost-reduce existing 80GB and 160GB drives. "And what we'll do later--and it's not even going to be this year but first half of next year--we will introduce, also on 34 nanometer, a performance enhancement and a doubling of the capacity," Winslow said, meaning that larger capacity drives, such as those over 300GB, won't appear until next year. … Read more

Intel ships enterprise solid-state drive

Not long after releasing the X-25M solid-state drive for general consumers, Intel announced on Wednesday its highest-performing SSD for servers.

The new drive, dubbed X-25E Extreme, shares a lot of similarities with the X-25M, including the 2.5-inch chassis, SATA interface, and 10-channel NAND architecture with Native Command Queuing. However, it features 50nm single-level cell NAND flash memory technology instead of multicell level NAND found in the X-25M.

The result, according to Intel, is that the new X25-E increases server, workstation, and storage system performance by up to 100 times over traditional hard-disk drives when measured in input/output per … Read more

Intel thinks big with solid-state drives

SAN FRANCISCO--Intel will finally enter the high-capacity solid-state drive business with the goal of replacing hard-disk drives in both consumer and corporate markets.

This comes 20 years after Intel introduced its first flash memory--a 256KB flash chip in 1988. The world's largest chipmaker is announcing the line of solid-state drives at the Intel Developer Forum here.

The presence of Intel will intensify an already intensely competitive market. "Intel's entry into the SSD market has been expected for a while and although a bit delayed, represents the start of what we expect to be a very competitive market,&… Read more